General

Differential-Review

data/skills-content.json#security-differential-review

Differential Security Review

Security-focused code review for PRs, commits, and diffs.

Core Principles

Risk-First: Focus on auth, crypto, value transfer, external calls
Evidence-Based: Every finding backed by git history, line numbers, attack scenarios
Adaptive: Scale to codebase size (SMALL/MEDIUM/LARGE)
Honest: Explicitly state coverage limits and confidence level
Output-Driven: Always generate comprehensive markdown report file

Rationalizations (Do Not Skip)

Rationalization	Why It's Wrong	Required Action
"Small PR, quick review"	Heartbleed was 2 lines	Classify by RISK, not size
"I know this codebase"	Familiarity breeds blind spots	Build explicit baseline context
"Git history takes too long"	History reveals regressions	Never skip Phase 1
"Blast radius is obvious"	You'll miss transitive callers	Calculate quantitatively
"No tests = not my problem"	Missing tests = elevated risk rating	Flag in report, elevate severity
"Just a refactor, no security impact"	Refactors break invariants	Analyze as HIGH until proven LOW
"I'll explain verbally"	No artifact = findings lost	Always write report

Quick Reference

Codebase Size Strategy

Codebase Size	Strategy	Approach
SMALL (<20 files)	DEEP	Read all deps, full git blame
MEDIUM (20-200)	FOCUSED	1-hop deps, priority files
LARGE (200+)	SURGICAL	Critical paths only

Risk Level Triggers

Risk Level	Triggers
HIGH	Auth, crypto, external calls, value transfer, validation removal
MEDIUM	Business logic, state changes, new public APIs
LOW	Comments, tests, UI, logging

Workflow Overview

Pre-Analysis → Phase 0: Triage → Phase 1: Code Analysis → Phase 2: Test Coverage
    ↓              ↓                    ↓                        ↓
Phase 3: Blast Radius → Phase 4: Deep Context → Phase 5: Adversarial → Phase 6: Report

Decision Tree

Starting a review?

├─ Need detailed phase-by-phase methodology?
│  └─ Read: methodology.md
│     (Pre-Analysis + Phases 0-4: triage, code analysis, test coverage, blast radius)
│
├─ Analyzing HIGH RISK change?
│  └─ Read: adversarial.md
│     (Phase 5: Attacker modeling, exploit scenarios, exploitability rating)
│
├─ Writing the final report?
│  └─ Read: reporting.md
│     (Phase 6: Report structure, templates, formatting guidelines)
│
├─ Looking for specific vulnerability patterns?
│  └─ Read: patterns.md
│     (Regressions, reentrancy, access control, overflow, etc.)
│
└─ Quick triage only?
   └─ Use Quick Reference above, skip detailed docs

Quality Checklist

Before delivering:

All changed files analyzed
Git blame on removed security code
Blast radius calculated for HIGH risk
Attack scenarios are concrete (not generic)
Findings reference specific line numbers + commits
Report file generated
User notified with summary

Integration

audit-context-building skill:

Pre-Analysis: Build baseline context
Phase 4: Deep context on HIGH RISK changes

issue-writer skill:

Transform findings into formal audit reports
Command: issue-writer --input DIFFERENTIAL_REVIEW_REPORT.md --format audit-report

Example Usage

Quick Triage (Small PR)

Input: 5 file PR, 2 HIGH RISK files
Strategy: Use Quick Reference
1. Classify risk level per file (2 HIGH, 3 LOW)
2. Focus on 2 HIGH files only
3. Git blame removed code
4. Generate minimal report
Time: ~30 minutes

Standard Review (Medium Codebase)

Input: 80 files, 12 HIGH RISK changes
Strategy: FOCUSED (see methodology.md)
1. Full workflow on HIGH RISK files
2. Surface scan on MEDIUM
3. Skip LOW risk files
4. Complete report with all sections
Time: ~3-4 hours

Deep Audit (Large, Critical Change)

Input: 450 files, auth system rewrite
Strategy: SURGICAL + audit-context-building
1. Baseline context with audit-context-building
2. Deep analysis on auth changes only
3. Blast radius analysis
4. Adversarial modeling
5. Comprehensive report
Time: ~6-8 hours

When NOT to Use This Skill

Greenfield code (no baseline to compare)
Documentation-only changes (no security impact)
Formatting/linting (cosmetic changes)
User explicitly requests quick summary only (they accept risk)

For these cases, use standard code review instead.

Red Flags (Stop and Investigate)

Immediate escalation triggers:

Removed code from "security", "CVE", or "fix" commits
Access control modifiers removed (onlyOwner, internal → external)
Validation removed without replacement
External calls added without checks
High blast radius (50+ callers) + HIGH risk change

These patterns require adversarial analysis even in quick triage.

Tips for Best Results

Do:

Start with git blame for removed code
Calculate blast radius early to prioritize
Generate concrete attack scenarios
Reference specific line numbers and commits
Be honest about coverage limitations
Always generate the output file

Don't:

Skip git history analysis
Make generic findings without evidence
Claim full analysis when time-limited
Forget to check test coverage
Miss high blast radius changes
Output report only to chat (file required)

Supporting Documentation

methodology.md - Detailed phase-by-phase workflow (Phases 0-4)
adversarial.md - Attacker modeling and exploit scenarios (Phase 5)
reporting.md - Report structure and formatting (Phase 6)
patterns.md - Common vulnerability patterns reference

For first-time users: Start with methodology.md to understand the complete workflow.

For experienced users: Use this page's Quick Reference and Decision Tree to navigate directly to needed content.

Raw SKILL.md

---
name: Differential-Review
description: >
---

# Differential Security Review

Security-focused code review for PRs, commits, and diffs.

## Core Principles

1. **Risk-First**: Focus on auth, crypto, value transfer, external calls
2. **Evidence-Based**: Every finding backed by git history, line numbers, attack scenarios
3. **Adaptive**: Scale to codebase size (SMALL/MEDIUM/LARGE)
4. **Honest**: Explicitly state coverage limits and confidence level
5. **Output-Driven**: Always generate comprehensive markdown report file

---

## Rationalizations (Do Not Skip)

| Rationalization | Why It's Wrong | Required Action |
|-----------------|----------------|-----------------|
| "Small PR, quick review" | Heartbleed was 2 lines | Classify by RISK, not size |
| "I know this codebase" | Familiarity breeds blind spots | Build explicit baseline context |
| "Git history takes too long" | History reveals regressions | Never skip Phase 1 |
| "Blast radius is obvious" | You'll miss transitive callers | Calculate quantitatively |
| "No tests = not my problem" | Missing tests = elevated risk rating | Flag in report, elevate severity |
| "Just a refactor, no security impact" | Refactors break invariants | Analyze as HIGH until proven LOW |
| "I'll explain verbally" | No artifact = findings lost | Always write report |

---

## Quick Reference

### Codebase Size Strategy

| Codebase Size | Strategy | Approach |
|---------------|----------|----------|
| SMALL (<20 files) | DEEP | Read all deps, full git blame |
| MEDIUM (20-200) | FOCUSED | 1-hop deps, priority files |
| LARGE (200+) | SURGICAL | Critical paths only |

### Risk Level Triggers

| Risk Level | Triggers |
|------------|----------|
| HIGH | Auth, crypto, external calls, value transfer, validation removal |
| MEDIUM | Business logic, state changes, new public APIs |
| LOW | Comments, tests, UI, logging |

---

## Workflow Overview

```
Pre-Analysis → Phase 0: Triage → Phase 1: Code Analysis → Phase 2: Test Coverage
    ↓              ↓                    ↓                        ↓
Phase 3: Blast Radius → Phase 4: Deep Context → Phase 5: Adversarial → Phase 6: Report
```

---

## Decision Tree

**Starting a review?**

```
├─ Need detailed phase-by-phase methodology?
│  └─ Read: methodology.md
│     (Pre-Analysis + Phases 0-4: triage, code analysis, test coverage, blast radius)
│
├─ Analyzing HIGH RISK change?
│  └─ Read: adversarial.md
│     (Phase 5: Attacker modeling, exploit scenarios, exploitability rating)
│
├─ Writing the final report?
│  └─ Read: reporting.md
│     (Phase 6: Report structure, templates, formatting guidelines)
│
├─ Looking for specific vulnerability patterns?
│  └─ Read: patterns.md
│     (Regressions, reentrancy, access control, overflow, etc.)
│
└─ Quick triage only?
   └─ Use Quick Reference above, skip detailed docs
```

---

## Quality Checklist

Before delivering:

- [ ] All changed files analyzed
- [ ] Git blame on removed security code
- [ ] Blast radius calculated for HIGH risk
- [ ] Attack scenarios are concrete (not generic)
- [ ] Findings reference specific line numbers + commits
- [ ] Report file generated
- [ ] User notified with summary

---

## Integration

**audit-context-building skill:**
- Pre-Analysis: Build baseline context
- Phase 4: Deep context on HIGH RISK changes

**issue-writer skill:**
- Transform findings into formal audit reports
- Command: `issue-writer --input DIFFERENTIAL_REVIEW_REPORT.md --format audit-report`

---

## Example Usage

### Quick Triage (Small PR)
```
Input: 5 file PR, 2 HIGH RISK files
Strategy: Use Quick Reference
1. Classify risk level per file (2 HIGH, 3 LOW)
2. Focus on 2 HIGH files only
3. Git blame removed code
4. Generate minimal report
Time: ~30 minutes
```

### Standard Review (Medium Codebase)
```
Input: 80 files, 12 HIGH RISK changes
Strategy: FOCUSED (see methodology.md)
1. Full workflow on HIGH RISK files
2. Surface scan on MEDIUM
3. Skip LOW risk files
4. Complete report with all sections
Time: ~3-4 hours
```

### Deep Audit (Large, Critical Change)
```
Input: 450 files, auth system rewrite
Strategy: SURGICAL + audit-context-building
1. Baseline context with audit-context-building
2. Deep analysis on auth changes only
3. Blast radius analysis
4. Adversarial modeling
5. Comprehensive report
Time: ~6-8 hours
```

---

## When NOT to Use This Skill

- **Greenfield code** (no baseline to compare)
- **Documentation-only changes** (no security impact)
- **Formatting/linting** (cosmetic changes)
- **User explicitly requests quick summary only** (they accept risk)

For these cases, use standard code review instead.

---

## Red Flags (Stop and Investigate)

**Immediate escalation triggers:**
- Removed code from "security", "CVE", or "fix" commits
- Access control modifiers removed (onlyOwner, internal → external)
- Validation removed without replacement
- External calls added without checks
- High blast radius (50+ callers) + HIGH risk change

These patterns require adversarial analysis even in quick triage.

---

## Tips for Best Results

**Do:**
- Start with git blame for removed code
- Calculate blast radius early to prioritize
- Generate concrete attack scenarios
- Reference specific line numbers and commits
- Be honest about coverage limitations
- Always generate the output file

**Don't:**
- Skip git history analysis
- Make generic findings without evidence
- Claim full analysis when time-limited
- Forget to check test coverage
- Miss high blast radius changes
- Output report only to chat (file required)

---

## Supporting Documentation

- **[methodology.md](methodology.md)** - Detailed phase-by-phase workflow (Phases 0-4)
- **[adversarial.md](adversarial.md)** - Attacker modeling and exploit scenarios (Phase 5)
- **[reporting.md](reporting.md)** - Report structure and formatting (Phase 6)
- **[patterns.md](patterns.md)** - Common vulnerability patterns reference

---

**For first-time users:** Start with [methodology.md](methodology.md) to understand the complete workflow.

**For experienced users:** Use this page's Quick Reference and Decision Tree to navigate directly to needed content.

Source: Community | License: MIT